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Autori principali: Baran, Nicole M, Jeong, Hyeonsoo, Maney, Donna L, Yi, Soojin V
Natura: Artículo científico
Lingua:en
Pubblicazione: Molecular ecology 2026
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Accesso online:https://pubmed.ncbi.nlm.nih.gov/41738571/
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author Baran, Nicole M
Jeong, Hyeonsoo
Maney, Donna L
Yi, Soojin V
author_facet Baran, Nicole M
Jeong, Hyeonsoo
Maney, Donna L
Yi, Soojin V
Baran, Nicole M
Jeong, Hyeonsoo
Maney, Donna L
Yi, Soojin V
collection PubMed - marine biology
contents Massive Genomic and Transcriptomic Changes Within a Young Inversion Polymorphism in the Absence of Degeneration. Baran, Nicole M Jeong, Hyeonsoo Maney, Donna L Yi, Soojin V Animals Chromosome Inversion Polymorphism, Genetic Transcriptome Sparrows Haplotypes Sequence Analysis, DNA Evolution, Molecular Selection, Genetic Alleles Chromosomal inversion polymorphisms have been linked to the evolution of phenotypic variation, environmental adaptation, and speciation. The genome of the white-throated sparrow (Zonotrichia albicollis) contains two exceptionally large chromosomal polymorphisms. The rearrangement on the 2nd chromosome (ZAL2/2) has been the subject of considerable study and is linked to both plumage morph and alternative reproductive strategies. Using extensive genomic and transcriptomic resources, we molecularly characterised the other polymorphism, which is on the 3rd chromosome (ZAL3/3). We estimate that the ZAL3 polymorphism is larger than the ZAL2 polymorphism, capturing nearly 1000 genes. Sequence divergence between ZAL3 and ZAL3 is approximately half that of ZAL2/2, suggesting that ZAL3/3 evolved in the context of the ZAL2/2 rearrangement. We found evidence of reduced genetic diversity inside the rearranged region on ZAL3, sequence divergence between ZAL3 and ZAL3, and notable gene expression differences and allelic bias between the two haplotypes. We did not, however, find evidence consistent with widespread degeneration of ZAL3. We identified a region inside the rearrangement that shows evidence of balancing selection, consistent with hypotheses that such divergent haplotypes may evolve within non-recombining polymorphisms. Using a newly developed PCR-based genotyping assay for the ZAL3 polymorphism, we genotyped 972 archived samples. We found that ZAL3/3 homozygotes are rare (1.2% of the population), but at the population level the arrangement is in Hardy-Weinberg equilibrium. We report here that rare ZAL3/3 homozygotes are in poorer body condition. Together, our observations of this young inversion polymorphism indicate that reduced genetic diversity, reduced selection efficacy, and the accumulation of adaptive alleles can occur before detectable genetic degeneration.
format Artículo científico
id pubmed_41738571
institution PubMed
language en
publishDate 2026
publisher Molecular ecology
record_format pubmed
spellingShingle Massive Genomic and Transcriptomic Changes Within a Young Inversion Polymorphism in the Absence of Degeneration.
Baran, Nicole M
Jeong, Hyeonsoo
Maney, Donna L
Yi, Soojin V
Animals
Chromosome Inversion
Polymorphism, Genetic
Transcriptome
Sparrows
Haplotypes
Sequence Analysis, DNA
Evolution, Molecular
Selection, Genetic
Alleles
Massive Genomic and Transcriptomic Changes Within a Young Inversion Polymorphism in the Absence of Degeneration. Baran, Nicole M Jeong, Hyeonsoo Maney, Donna L Yi, Soojin V Animals Chromosome Inversion Polymorphism, Genetic Transcriptome Sparrows Haplotypes Sequence Analysis, DNA Evolution, Molecular Selection, Genetic Alleles Chromosomal inversion polymorphisms have been linked to the evolution of phenotypic variation, environmental adaptation, and speciation. The genome of the white-throated sparrow (Zonotrichia albicollis) contains two exceptionally large chromosomal polymorphisms. The rearrangement on the 2nd chromosome (ZAL2/2) has been the subject of considerable study and is linked to both plumage morph and alternative reproductive strategies. Using extensive genomic and transcriptomic resources, we molecularly characterised the other polymorphism, which is on the 3rd chromosome (ZAL3/3). We estimate that the ZAL3 polymorphism is larger than the ZAL2 polymorphism, capturing nearly 1000 genes. Sequence divergence between ZAL3 and ZAL3 is approximately half that of ZAL2/2, suggesting that ZAL3/3 evolved in the context of the ZAL2/2 rearrangement. We found evidence of reduced genetic diversity inside the rearranged region on ZAL3, sequence divergence between ZAL3 and ZAL3, and notable gene expression differences and allelic bias between the two haplotypes. We did not, however, find evidence consistent with widespread degeneration of ZAL3. We identified a region inside the rearrangement that shows evidence of balancing selection, consistent with hypotheses that such divergent haplotypes may evolve within non-recombining polymorphisms. Using a newly developed PCR-based genotyping assay for the ZAL3 polymorphism, we genotyped 972 archived samples. We found that ZAL3/3 homozygotes are rare (1.2% of the population), but at the population level the arrangement is in Hardy-Weinberg equilibrium. We report here that rare ZAL3/3 homozygotes are in poorer body condition. Together, our observations of this young inversion polymorphism indicate that reduced genetic diversity, reduced selection efficacy, and the accumulation of adaptive alleles can occur before detectable genetic degeneration.
title Massive Genomic and Transcriptomic Changes Within a Young Inversion Polymorphism in the Absence of Degeneration.
topic Animals
Chromosome Inversion
Polymorphism, Genetic
Transcriptome
Sparrows
Haplotypes
Sequence Analysis, DNA
Evolution, Molecular
Selection, Genetic
Alleles
url https://pubmed.ncbi.nlm.nih.gov/41738571/